...

Batteries: the new power of the energy revolution

With the continuous development of technology, the field of energy storage has also undergone a tremendous evolution. Over the past few decades, we have witnessed the rise of lithium-ion batteries as the primary source of energy for mobile devices, electric vehicles, and renewable energy systems. However, lithium-ion batteries still have some limitations, such as long charging time, limited life and battery weight issues. Today, solid state battery are becoming a new force in the field of energy storage with their amazing energy storage capacity and fast charging speed, leading an energy revolution.

Enerbond has combined batteries and solid state structures to create solid state battery.

Supercapacitor batteries are used when pairing solid state and battery technology in one device. In this type of energy storage, one of the carbon-based electrodes in a solid state is replaced with a lithium-doped carbon electrode similar to LIB. This increases the operating voltage to 3.7V (where standard EDLCs are rated to 2.7V maximum) as well as the capacitance by nearly 15 times.

While standard EDLCs are typically discharged in under 60 seconds, solid state battery can go up to a few hours. They also have muh lower self-discharge and leakage current than EDLCs. All while still benefiting from the solid state’s inherently high power density, high reliability and long cycle life.

This principle of operation allows solid state battery to have a number of unique properties, including:

High speed charging and discharging

Solid state batteries are capable of charging and discharging at a much faster rate than conventional batteries. This means you can get more energy in a short amount of time without waiting for a long charging cycle. This is important for applications that require fast charging, such as electric vehicles and renewable energy systems.

2. Long service life

Solid state batteries have a longer life span compared to lithium-ion batteries. Lithium-ion batteries gradually lose capacity after multiple charges and discharges, while solid state battery have no significant loss after the same number of cycles of charging and discharging. This reduces the maintenance cost of the energy storage system.

3. High energy density

Solid state batteries have excellent energy density, which means that they can store large amounts of electrical energy in a relatively small volume. This is particularly beneficial for space-constrained applications, such as mobile devices and aerospace technology.

Application field of solid state battery

The unique properties of solid state battery make them useful for a wide range of applications.The following are some of the main applications of solid state battery:

  1. Electric vehicle

The electric vehicle market is growing rapidly, and the fast charging speed of solid state battery makes them an ideal energy storage solution.Electric vehicles equipped with solid state battery can complete charging in a short time, thereby improving the efficiency of charging stations and extending the battery life.

2. Renewable energy systems

Renewable energy sources such as solar and wind have unstable properties and require stable energy storage to ensure continuous power supply. Solid state batteries can rapidly store and release electrical energy, making them an ideal partner for renewable energy systems that help balance energy supply.

3. Industrial automation

In the field of industrial automation, solid state battery can be used to store and release large amounts of electrical energy for use in robots, power tools, and other automation devices, improving their operational efficiency and reliability.

4. Medical equipment

Medical devices often require efficient energy storage to ensure stable performance.The high energy density and long lifetime of solid state battery make them an ideal energy choice for medical devices.

The future of solid state battery

The rapid rise of solid state battery suggests that they will play a key role in the future of energy storage. As scientists and engineers continue to improve the performance of batteries, we can expect a wider range of applications and greater energy efficiency.Here are some future perspectives for solid state battery:

1. Higher energy density

Researchers are working to improve the energy density of solid state battery to replace traditional batteries in more fields. This will help reduce dependence on limited resources and promote sustainable development.

  2. Longer cycle life

Through the use of new materials and design methods, the cycle life of solid state battery will be further extended, reducing the cost of maintenance and replacement.

3. Innovative application fields

As technology advances, solid state battery will further expand their application areas to include aerospace, iot devices, and smart city infrastructure.

The new power of solid state battery is revolutionizing energy storage. Their high-speed charge-discharge, long life, and high energy density make them ideal for solving energy storage challenges. As technology continues to advance, we can expect to see solid state battery play a greater role in various fields to provide reliable solutions for future energy needs. Whether it is electric vehicles, renewable energy systems or industrial automation, solid state battery will continue to lead the innovation and development of energy storage.

STAY UP TO DATE WITH ENERBOND LATEST NEWS

Email

info@enerbond.com

Phone

+86 18702123500

Please enable JavaScript in your browser to complete this form.